Ted Judd scite author profile

Despite the prevalence of KRAS mutations in human cancers, there remain no targeted therapies for treatment. The serine-threonine kinase STK33 has been proposed to be required for the survival of mutant KRAS-dependent cell lines, suggesting that small molecule kinase inhibitors of STK33 may be useful to treat KRAS-dependent tumors. In this study, we investigated the role of STK33 in mutant KRAS human cancer cells using RNA interference, dominant mutant overexpression, and small molecule inhibitors. As expected, KRAS downregulation decreased the survival of KRAS-dependent cells. In contrast, STK33 downregulation or dominant mutant overexpression had no effect on KRAS signaling or survival of these cells. Similarly, a synthetic lethal siRNA screen conducted in a broad panel of KRAS wild-type or mutant cells identified KRAS but not STK33 as essential for survival. We also obtained similar negative results using small molecule inhibitors of the STK33 kinase identified by high-throughput screening. Taken together, our findings refute earlier proposals that STK33 inhibition may be a useful therapeutic approach to target human KRAS mutant tumors. Cancer Res; 71(17); 5818-26. Ó2011 AACR.

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Mitomycinoid Alkaloids: Mechanism of Action, Biosynthesis, Total Syntheses, and Synthetic Approaches

Bass

et al. 2013

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From Fragment Screening to In Vivo Efficacy: Optimization of a Series of 2-Aminoquinolines as Potent Inhibitors of Beta-Site Amyloid Precursor Protein Cleaving Enzyme 1 (BACE1)

et al. 2011

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Using fragment-based screening of a focused fragment library, 2-aminoquinoline 1 was identified as an initial hit for BACE1. Further SAR development was supported by X-ray structures of BACE1 cocrystallized with various ligands and molecular modeling studies to expedite the discovery of potent compounds. These strategies enabled us to integrate the C-3 side chain on 2-aminoquinoline 1 extending deep into the P2' binding pocket of BACE1 and enhancing the ligand's potency. We were able to improve the BACE1 potency to subnanomolar range, over 10(6)-fold more potent than the initial hit (900 μM). Further elaboration of the physical properties of the lead compounds to those more consistent with good blood-brain barrier permeability led to inhibitors with greatly improved cellular activity and permeability. Compound 59 showed an IC(50) value of 11 nM on BACE1 and cellular activity of 80 nM. This compound was advanced into rat pharmacokinetic and pharmacodynamic studies and demonstrated significant reduction of Aβ levels in cerebrospinal fluid (CSF).

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Design and Preparation of a Potent Series of Hydroxyethylamine Containing β-Secretase Inhibitors That Demonstrate Robust Reduction of Central β-Amyloid

et al. 2012

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A series of potent hydroxyethyl amine (HEA) derived inhibitors of β-site APP cleaving enzyme (BACE1) was optimized to address suboptimal pharmacokinetics and poor CNS partitioning. This work identified a series of benzodioxolane analogues that possessed improved metabolic stability and increased oral bioavailability. Subsequent efforts focused on improving CNS exposure by limiting susceptibility to Pgp-mediated efflux and identified an inhibitor which demonstrated robust and sustained reduction of CNS β-amyloid (Aβ) in Sprague–Dawley rats following oral administration.

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Fragment-Linking Approach Using ¹⁹F NMR Spectroscopy To Obtain Highly Potent and Selective Inhibitors of β-Secretase

et al. 2016

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Fragment-based drug discovery (FBDD) has become a widely used tool in small-molecule drug discovery efforts. One of the most commonly used biophysical methods in detecting weak binding of fragments is nuclear magnetic resonance (NMR) spectroscopy. In particular, FBDD performed with (19)F NMR-based methods has been shown to provide several advantages over (1)H NMR using traditional magnetization-transfer and/or two-dimensional methods. Here, we demonstrate the utility and power of (19)F-based fragment screening by detailing the identification of a second-site fragment through (19)F NMR screening that binds to a specific pocket of the aspartic acid protease, β-secretase (BACE-1). The identification of this second-site fragment allowed the undertaking of a fragment-linking approach, which ultimately yielded a molecule exhibiting a more than 360-fold increase in potency while maintaining reasonable ligand efficiency and gaining much improved selectivity over cathepsin-D (CatD). X-ray crystallographic studies of the molecules demonstrated that the linked fragments exhibited binding modes consistent with those predicted from the targeted screening approach, through-space NMR data, and molecular modeling.

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Structure Determination of Mycolactone C via Total Synthesis

et al. 2004

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An Orally Available BACE1 Inhibitor That Affords Robust CNS Aβ Reduction without Cardiovascular Liabilities

Cheng

Brown

Judd

et al. 2015

ACS Med. Chem. Lett.

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BACE1 inhibition to prevent Aβ peptide formation is considered to be a potential route to a diseasemodifying treatment for Alzheimer's disease. Previous efforts in our laboratory using a combined structure-and propertybased approach have resulted in the identification of aminooxazoline xanthenes as potent BACE1 inhibitors. Herein, we report further optimization leading to the discovery of inhibitor 15 as an orally available and highly efficacious BACE1 inhibitor that robustly reduces CSF and brain Aβ levels in both rats and nonhuman primates. In addition, compound 15 exhibited low activity on the hERG ion channel and was well tolerated in an integrated cardiovascular safety model. KEYWORDS: β-site amyloid precursor protein cleaving enzyme 1 (BACE1), Alzheimer's disease (AD), Aβ, aminooxazoline, xanthene A lzheimer's disease (AD) is the most common neurodegenerative disorder and accounts for 50−80% of dementia cases identified each year. Current therapeutics for AD only provide temporary symptomatic relief and do not address the underlying neuropathology. A therapeutic treatment that directly modifies the progression of the disease remains one of the largest unmet medical needs in neurobiology.The most widely held hypothesis for the underlying pathogenesis of AD posits that aggregation of β-amyloid peptides (Aβ) and deposition into amyloid plaques in the neural parenchyma play an essential role. Aβ is produced by sequential endoproteolytic cleavage of amyloid precursor protein (APP) by the aspartyl protease β-site APP cleaving enzyme-1 (BACE1) and γ-secretase.

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A Potent and Orally Efficacious, Hydroxyethylamine-Based Inhibitor of β-Secretase

Kaller

Harried

Albrecht

et al. 2012

ACS Med. Chem. Lett.

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β-Secretase inhibitors are potentially disease-modifying treatments for Alzheimer's disease. Previous efforts in our laboratory have resulted in hydroxyethylamine-derived inhibitors such as 1 with low nanomolar potency against β-site amyloid precursor protein cleaving enzyme (BACE). When dosed intravenously, compound 1 was also shown to significantly reduce Aβ40 levels in plasma, brain, and cerebral spinal fluid. Herein, we report further optimizations that led to the discovery of inhibitor 16 as a novel, potent, and orally efficacious BACE inhibitor.

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Ted Judd

STK33 Kinase Activity Is Nonessential in KRAS-Dependent Cancer Cells

Mitomycinoid Alkaloids: Mechanism of Action, Biosynthesis, Total Syntheses, and Synthetic Approaches

From Fragment Screening to In Vivo Efficacy: Optimization of a Series of 2-Aminoquinolines as Potent Inhibitors of Beta-Site Amyloid Precursor Protein Cleaving Enzyme 1 (BACE1)

Design and Preparation of a Potent Series of Hydroxyethylamine Containing β-Secretase Inhibitors That Demonstrate Robust Reduction of Central β-Amyloid

Fragment-Linking Approach Using ¹⁹F NMR Spectroscopy To Obtain Highly Potent and Selective Inhibitors of β-Secretase

Structure Determination of Mycolactone C via Total Synthesis

An Orally Available BACE1 Inhibitor That Affords Robust CNS Aβ Reduction without Cardiovascular Liabilities

A Potent and Orally Efficacious, Hydroxyethylamine-Based Inhibitor of β-Secretase

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Ted Judd

STK33 Kinase Activity Is Nonessential in KRAS-Dependent Cancer Cells

Mitomycinoid Alkaloids: Mechanism of Action, Biosynthesis, Total Syntheses, and Synthetic Approaches

From Fragment Screening to In Vivo Efficacy: Optimization of a Series of 2-Aminoquinolines as Potent Inhibitors of Beta-Site Amyloid Precursor Protein Cleaving Enzyme 1 (BACE1)

Design and Preparation of a Potent Series of Hydroxyethylamine Containing β-Secretase Inhibitors That Demonstrate Robust Reduction of Central β-Amyloid

Fragment-Linking Approach Using 19F NMR Spectroscopy To Obtain Highly Potent and Selective Inhibitors of β-Secretase

Structure Determination of Mycolactone C via Total Synthesis

An Orally Available BACE1 Inhibitor That Affords Robust CNS Aβ Reduction without Cardiovascular Liabilities

A Potent and Orally Efficacious, Hydroxyethylamine-Based Inhibitor of β-Secretase

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Product

Resources

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Fragment-Linking Approach Using ¹⁹F NMR Spectroscopy To Obtain Highly Potent and Selective Inhibitors of β-Secretase